Question
A wave can transmit ...... from one place to another(a) Energy(b) Amplitude(c) Wavelength(d) Matter
✓
Answer
(a) Energy
Need a full question paper?
Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.
Explore more
Similar questions
Consider an electron $(m = 9.1 \left.\times 10^{-31} \mathrm{~kg}\right)$ confined by electrical forces to move between two rigid walls separated by $1.0 \times 10^{-9}$ metre, which is about five atomic diameters. The quantised energy value for the lowest stationary state is
→A hot liquid is kept in a big room. The logarithm of the numerical value of the temperature difference between the liquid and the room is plotted against time. The plot will be very nearly:
The short range attractive nuclear forces that are responsible for the binding of nucleons in a nucleus are supposed to be caused by the role played by the particles called:
Two different metals are joined end to end. One end is kept at constant temperature and the other end is heated to a very high temperature. The graph depicting the thermo $e.m.f.$ is
→In the electric field of a point charge q, a certain charge is carried from point $\text{A}$ to $\text{B, C, D}$ and $\text{E}$. Then the work done
→When a straight wire is moved up and down rapidly between two poles of a horseshoe magnet then _______ is produced in the wire.
A charged conducting sphere does not produce an electric field:
A bar magnet of magnetic moment $200 \ \mathrm{A}-\mathrm{m}^2$ is suspended in a magnetic field of intensity $0.25 \ \mathrm{N} / \mathrm{A}-\mathrm{m}$. The couple required to deflect it through $30^{\circ}$ is
→Every atom makes one free electron in copper. If $1.1$ ampere current is flowing in the wire of copper having $1\ mm$ diameter, then the drift velocity $($approx.$)$ will be $($Density of copper $= 9\times 10^3\ kgm^{-3}$ and atomic weight $= 63)$
→The dimensions of capacitance are: